High-Speed multi-modal scattering polarimetry for nerve fiber imaging / vorgelegt von Franca auf der Heiden. Wuppertal, October 15, 2024
Inhalt
- Abstract
- Acknowledgements
- Introduction
- Theoretical Background
- Light Matter Interaction
- Matrix Calculus in Polarimetry
- Anatomy and Optical Properties of Brain Tissue
- Methods and Materials
- Tissue Preparation
- Three-Dimensional Polarized Light Imaging (3D-PLI)
- Diattenuation Imaging (DI)
- Müller Polarimetry
- Computational Scattered Light Imaging (ComSLI)
- Experimental Setups
- The Scattering Polarimeter
- Concept and Design
- Optical Components
- Construction of the Scattering Polarimeter
- Software and Measurement Routine
- Characterization of Variable Retarders
- Future Hardware Upgrades
- Single-Mode Performance
- Multi-Modal Parameter Analysis
- Matter and Fiber Classification
- Combined Fiber Orientation Maps
- Fiber Inclination
- Future Multi-Modal Parameter Analysis
- Advancing ComSLI
- Formalin-Fixed Paraffin-Embedded Tissue
- High-Sensitivity Camera
- Automatized High-Resolution Scan
- High-Speed Compressed Sensing Illumination
- Discussion and Outlook
- Conclusion
- Literature
- List of Symbols
- List of Abbreviations
- List of Figures
- List of Tables
- Supplementary Calculations
- Müller Matrices for Fibrous Brain Tissue
- Müller Calculus for a Non-Ideal Müller Polarimeter
- Müller Matrix Calculus for 3D-PLI
- Müller Matrix Calculus for DI
- 3D-PLI Calibration
- Linear Polarization Angles with Müller Polarimeter
- Supplementary Figures
- Supplementary Figures to Chapter4
- Supplementary Figures to Chapter5
- Supplementary Figures to Chapter6
- Supplementary Data Sheets
- Publications